Electric fuse or cut-out



V. HOPE lELECTRIC FUSE OR. CUT-'OUT Filed Nov. 21. 1922 V. HUP'L ELECTRIC FUSE 0R CUT-OUT '7 Sheets-Sheet 2 Filed Nov. 2 1. 1922 Zal/lE 7 y gi a ,j 7

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ELBCTRICFUSE 0R CUT-OUT Filed Nov. 21. 1922 7 Sheets-Sheet 3 lNvE/vne: VEZNON Hove,

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ELECTRIC FUSE 0R CUT-0UT Filed Nov. `21. 1922 7 Sheets-Sheet 4 VERNON Hom;

ELECTRIC FUSE 0R CUT-0UT vFiled Nov. 21, 1922 7 Sheets-Sheet 5 if f/ Zi ff /NVENTO: VERNON Hove MSMIYWMMMWMMM" ELECTRIC FUSE OR CUT-OUT Filed Nov. 21, 1922 7 Sheets-Sheet 6 'lll/,1, r 'Il j@ l/I /l/(T. l l

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ELECTRIC FUSE OR CUT-OUT.

Application i forms a convenient replacement iuse.

' the fuse contacts, directs Such fuses usually satisfactorily clear the circuit for moderate overloads at moderate voltages, but are not satisfactory on direct shortrcireuits at comparatively high' voltages: and the object of the present invention is to improve this type ojf'fuse in these respects and render it suitable'for use 1n an earthed ironclad casing.

Attempts have been made to ventilatie can.

tridge. type fuses by providing openings at the ends, hut when the fuse blows on a direct short circuit and an are is struck, olt `ases through these openings, which lead directly to the atmosphere in the vicinity et the arc to the contarts, and' to the earthed metal casing in which the 'fuse is enclosed, and so damages the contacts and fuse fitting. v

According tothe presentinvention l provide an expansion chambercommunicating through ,a suitable openin or openings with the interior of the cartri ge or container in which the inse and the powder in which it is paclred are located. The openings are preferably arranged near the centre of. the cartridge and may in one modification take the lorm oi a belt oifp'er'torations at the centre ofthe cartridge, sai-d belt being surrounded bya band 'of copper Vgauze or 'the lllti. l 1.

The expansion chamber may very conveniently he an annular chamber 'formed by surrounding the cartridge containing: the re- 'l'ractory material byA a tubular casing preferably ot .insulating material, the Juse contacts being carried on end plates fitting and closing the respective ends of the said outer casing. f

in a inse constructed in'the'manner described, using;` say zinc for the fuse,vmarble dust which has in part been calcined as the filling powder for the fuse containing cartridge, and asbestos wool or the like resilieutVend-i'illing for the cartridge, I iind that neither .the fuse casinos nor terminals are damaged even when the fuse blows underl a directshort circuit; it is possible therefore, with such construction, to provide a carthe rush i filed November 21, 1922, Serial No. 602,454', and in Great Britain November 28, 1921.

tridge fuse of the enclosed type in which the fuse wire or strip is replaceable.

From very careful tests in which pressure recordingy devices have been employed,v I have found in severe short-circuits with comparatively high voltages, when the openings leading from the container to the expansion chamber are covered by a band of copper gauze, as described, that considerable pressure may be generated in both the container and the expansion chamber, accompanied by sufficiently high temperatures at ornear the said openines, to cause the burningl of the copper han s; further` iind that the copper gauze covering unduly restricts lthe egress of the powder and that under certain wconditions a central channel is maintained in the container, in which the molten zinc is held, so that the time taken to clear the are is prolonged, the result being further aggravated by the tendency ofthe powder to become compacted through heat and pres-V sure.

It would appear that the high temperatures and pressures, particularly in the expansion chamber, are due to the passage through the said openings, of very hich temperature zinc vapour, and to the com ustion ot this vapour as soon as it mixes With the air in the expansion chamber; with thevobject therefore ot reducing to the minimum the amount of' zinc volatilized, and of sup,- pressing the combustion of that which is volatilized, have devised means which, Whilst they tend normally to retain the powder in the inner casing, shall, on the blowing. of the fuse,'per1nit the eseapeof the gases together with a proportion of thel powder, from the central. container through the openings mto'tlie-expansion chamber, so

that theinechanical damping action of the powder, as well as the chemical suppression which results from the formation of C02.

prevents that degree of combustion which would result in the production of high pressures and temperatures.

I have found, as a result of my experiments, that the size of the openings in the wall of the container, leading from the in terior of the latter to the expansion chamber,

is a matter of some importance in securing adequate release of the gases Without incurring the risk ot too great a pressure in the expansion chamber.

The undesired rise of pressure in the` expansion chamber, may to some extent bev the length --thcreof 'giveexcellent and unobstructed vpowder in they allow .prevented by forming a comparatively large number of tree holes of small diameter in the wall of the container' at or near the central part of its length; if the'holes .are free they must be made small, for with comparatively large free' holes considerable pressures are developed in the expansion chamber; tor example, I have found in a 400 ampere-fuse that eighteen holes each one thirty-secoiul ol" an 'inch in diameter give good results, whereas with the same num ierof holes one-sixteenth ofan inch in veryy considerable .pressi'ires may,- under some conditions of Service, be' dediznnetcr veloped. v

I lind that very much larger holes may be employed with the most excellent results, if, on the blowing of the fusc,vthe egress of the gases and powder be subjected to a preliminary check which is broken down when the pressure in the container tends to rise.

With multiple holes ot' the sizes described, there is -no adequate provision to enable the the container to vcollapse by partial escape through the holes, the area of the forl this purpose. I therefore prefer, as an alternative, to provide for the release of the powder` throi'igh fewer holes of larger size,

. individual holes being. apparently too small 'rather-than through numerous smaller holes,

butto delay the escape lof the powderby means which yield .to pressure. l i l The aetionof the fuse maybe considerably improved by substituting `L'or the copper gauze described a means ol' closure for the openings, say of paper or thin fabric, which, vfhilst it is adapted to delay the escape of gases and powder fromthc ycontainer into the expansion chamber, yields to'comparatively smal-l pressure and alloi-ds, after what may b'ercgarded as a short time-lag, a comparatively free exit for `the gas and powder simultaneously. p v

I -ha've- `found, for example, that three openings, each Tths ot an inch diameter in the wall of the container, arranged on the saine side of the container, near the centreof A results when thefuse blows under a severe short-circuit, if the openings be closed. sayby adiaphragmof thin papengummed or otherwise secu-*red 'overt-he openings', or il" they be closedby'means ol a split cylindrical metal clipping ring 'of such strength that it is forced away from'the holes under a pressure not exceeding about Q() lhs. .per square inch; but other equivalent closing means may obviously be employed'. y The larger holes have the advantagethat the column ol powder to collapse, with the result that the are ot the shortci-renit iscleared much more rapidly than would otherwise be the case.

- jT-hc size of the holes and theresistance of the closure means are matters which require .serves to suppress the hol-es tted with the closure means to be considered, in accordance with the size and type of the fuse. and the means adopted to close them must be such that the delay in the escape of the gases shall ensure the effective operation of the powder, but shall not be sullicient to check'the escape to such an vextent that high pressures and temperatures result.

The esca holes into t 4ie expansion chamber with any volatilized zine that may esca Je' therewith is of advantage when the powder consists of marble dust part. oi which is ealcined, inasmuch as CO2 gas is generated and this combustion of the volatilized zinc which if it had 'free access to the air would take place in the expansion chamber with the accompaniment of high pressures and temperatures I have found, when con'iparatively large described are provided, that it is undesirable to fit such holes diametrically'oppositeeach other it isl best to group the-ni at or near the centre but on the same side. Where a split closure ring is fitted, the spring 4 of the vring may be em- 'Ihe size ot the holesv e of the powder through theployed to ca use engagement of 'shallow slot-s i in the freeends of the ring with pins or pegs fixed to the container with the objectof preventing.; accidental displacemenh but other meals for this-purpose may be readily del vise When marblevdnstalone is employed to sup ress the` combustion of the zinc vapour as ceseribed, CO,v is produced at a pressure greater than-is desiiable,'and I havefound it of advantage to Amix` with the marble dust an inert powder Which is neither fused nor decomposed .under the conditions which obtain within the fuse casing; I further find that it is advantageous that the inert powder should be .a heavy one, so that the chemical suppressionof combustion by the GO, may be augmented by a mechanical smothering of the are. ABarium sulphateA or keiselguhr -are powderswhichwhen mixed with thezmarble dust have givenexcellent results, the mixture of barium sulphate and marble dust in approximately equal parts by volume eing extremely etfective.- i l In constructing a fuse embodying the improvements above described it is desirable that the several parts should he enclosed in alhermetieally sealed enclosing casing within whichlatter, the expansion chamber is formed. It is necessary, of course, terminals out through the inner conta-incr ardgthe enclosing casing, and this must be done in such manner as to reduce to a minimum any possible end leakage.

In each modification, the construction to permit of the re-wiring a blown fuse, should be such thatthe connection of ythe fuse wire orstrip to its terminals and of thelatter to to bring the fuse the contact blades and end caps may, at one end at least, be made after the fuse has been inserted in the container and the latter. I'iacked'withthe filling powder. The container andthe enclosing casing may as stated be made ofl libre, but Where an ironclad construction is called for the outer casing may be of metal from which the contacts and interior parts are of course suitably insulated. l

The' most convenient arrangeme t for the expansion .chamber is, as stated, that in which it is formed by an annular space be tween the container and the enclosing casing: it may, however, be formed in any other suitable mannerprovided that the openings in the container lead to the 'expansion chamber.

The openings in the container may be closed by a band of pa-per fixed round the container by a suitable adhesive, the paper coverings of the openings being arranged tO burst when a desired. container pressure is reached; preferably, however, theyl are en closed by `a split springl band sprung into place on'the container, which band is preferably of an elastic metal,- the band being wide enough to over-lap the openings, and the thickness being such asl to permit the bandsbeing displaced vradially-before the pressure to the container rises eyond a few pounds per square inch.

I have illustratedv my invention in the accompanying drawings, in Whieh:-'

Figs. l'to 6' are diagrammatic views showing various arrangements of the expansion chamber.

Figs. 7 to 11 show a modification in which the openings in the end, through which the lfuse terminals pass are closed by conical nuts, Fig. 7 being an elevation; Fig. 8 an elevation in longitudinal section; Fig. 9 an end View; Fig. 10 a transverse section on;

the line X, "X; Fig. 10A an end View of the yielding cover andFig. 11 a detail view of the -fuse and terminals. l

Figs. 12 to 1G .show a modification of the arrangement of Figs. 7'to 11; Fig. 12 vbeing an elevation in longitudinal section; Fig. 13 an' end elevation viewed from the lett vof Fig. .12;1Fig. 1&1 an end view with the cap removed. Fig. 15 a transverse .section on the line XV; Fig. 16 an en delevation viewed 'from the right of Fig. 12.

Figs. 17 to 22 illustrate a modification in which the fuse terminals form the contact blades of the' fuse; Fig. 17 being an outside elevation; Fig. 18 an elevation in longitudinal section; Fig. 19 an end view with the end cap removed; Fig. 2O a detail of one of the Washers.; and Fig. 21 an outside end view and Fig.- 22 a minal blades.

f Figs. 23 to 28 show a modification in which betweenthe fuse and the end the connection detail 'of the fuse and its tertion on the line XXXI; Fig. 32 a transverse section on the line XXXII; Fig. 33 an end elevation; Fig. 34 an'end View ot' the yielding cover; and Fig. 35 a detail of the fuse and its end connections.

Figs. 36 to 47 illustrate the preferred form of fuse for average current carrying capacities; Fig. 36 being an elevation in longitu 37 a section on the' dinal medial section, Fig. line XXXVII, XXXVII oi Fig. 36; Fie'. 38 a section on the line XXXVIII, XXXVIII ot Fig. 36; and Fig. 39 is an end View.

Fics. 40 to 47 are illustrations of details to smal er scale', Fig. 4.0 being a part plan view of the tubular shell of the fuse containing chamber, Fig. 41 an end view of the enclosing cap for the fuse containing chamber, Fig.,42 a transverse section of the elastic means for closing the opening in the fuse containing shell, Figs. i3 and 114 being respectively a corresponding elevation and plan. Fig. 45 is an end elevation, Fig. 46 a side elevation and Fig. 47 a plan of the elastic clip.

Referring in the first instance to Figs. 1 to G, which, as stated, are diagrammatic views, and in which A denotes the nse'containing chamber, B the expansion chamber, C the rinse, 01 the n'icansby which the fuse ends or terminals are carried gas-tight through the end ol'i the casing, and o1 the opening etween the fuse container and the expansion chamber; the powder in which the i'use is embedded indicated by the dotted crosshatching. v

Figs. .l and '1^represent the preferred arrangement in .whichan annular space B be tween thecxterlor ofthe fuse container A and an outerv tubular casing forms the expansion chamber. l Figs. 1U and 1C show an arrangei'nent in which the two chambers A and lB are formed by a diameter division plate across the outer casing.

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Figs. 2 and 2^ show a modification in which a secondary expansion chamber B1 is formed outside the prima-ry expansion chamber B. the latter opening into the former through openings 711. In Figs. 3 and 3^ the expansion chamber B is .termed in an inner 'tubular casing the fuse being located inthe annular chamber A between this casing and an outer tubular casin". In Figs. 4 and 4A:

between the latter Casing l.

the fuses are located in an annular space A and two expansion chambers arevformed, one

B1 in a tubular casing Within the fuse container and the other in theannular space B and an outer' tubular casing.v` In Figs. 5 and 5^ multiple fuses are carried in several tubular casing's A which are located within an enclosingv tubular casing, the space between the exteriors of the casngs A and an outer tubular casing torming a common exj'iansion chamber B.

In Figs. 6 and 6^ multiple expansion chambers B are formed within a common fuse carrier chamber A.

There are, of course, other ways ot forming the expansion chamber; it may, for in stance, be formed at the en'ds ot' the fuse carrier, I iind, however, that for practical reasons the latter construction is undesirable.

In each of the modifications shown in Figs. l to 6 denotes the fuse container casing, B the expansion chamber, C the fuse, and al the opening or openings between the fuse container'y and the expansion chamber, which openings are closed by the yielding closure member.

Referring now to Figs. 7 to 1l l is the outer tubular casing, 2 an inner tubular casing ioriningthe fuse container; the space between the two l'ormingthe expansion chamber; the ends oli the inner chamber are closed-by washers 3 which are prevented from turning relatively to the casing 2 by pins 5 litting in recesses in the bore of the casing 2; the ends oltthe casingl are closed by washers 4, and the end joints are made by metallic end-caps 6 having internally screwed parts 6, which screw on to screw-threaded.portions at. the ends of the The fuse C is attached by bolts 8 to a facing 7b on the fuse terminals 7 Which pass through holes inthe washers 3 and 4, and through the bore of the end cap 6, the

portions 7- Which pass through the Washers 3 being 'of square cross-section, and the ends being threaded the end ot the bore of the rap 6 is of conical configuration and a gastight joint is made therewith by the conical nuts 9. The portions 6 ot the end caps are externally ot square or other suitable cross-section, and they torni the blades which iit into the contacts of the fuse. The holes (1.1 are. in this modification closed by a spring,y ring D wide enough to considerably overlap the holes in'an axial direction and flexible enough to yield and uncover theholes when the pressure in the fuse container A rises to a predetermined value, say, a few pounds above the atmosphere.

y Referring now to Figs. l2 to 16 10 is the outer casing, ll the inner casing, which latter is closed by end washers l2 and l2litted with pins 13 which engage with grooves in the bore of the casing l1; the terininal l5 has a squared portion l5al fitting in rectly into i-ts endcap 14', and in this nioditient-ion when a blown fuse is re-'lused one terminal only needs to be detached from its end cap. D is the flexible closing means for the opening d1 the construction of which is as described. The portions 14 and 14 of the end caps form the fuse blades as before.

Referring now to Figs. 17 to 22 ;-19 is the outer casing, 2() the inner casing,` 21 the washer for closing the inner casing, 22 and 23 supplementary washers, 2st the end connections which in this modification take the form of rectangular blades passing out through rectangular openings in the Washers 2l, 22, 23 and in the cap 26 interposed between the washers and the flange 2Ta of the end cap 27 which screws on to the outer casing 19 and makes the end joints. The fuse is secured to. the blades 24 by bolts 24 and the washer 2l is fitted with pins 25 as described. lo facilitate assemblage the Washers 21, 22 and 23 may be split as shown in reference to the washer 22 in Fig. 20. D is the flexible closure ring as before.

Referring to Figs. 23 to 28;-w

28 is an outer casing; 2%) the inner casing; il() the end plates by which the inner casing is closed, which plates screw onto the inner casing-.29 and have conical bores. A split double cone 3l embraces the l'use C, the two halves being held together by a liexible band 31a; one part of the double cone thus formed is a tight tit in a conical bore of the end 3U, and the other end is a tight lit in a conical recess formed in the contact piece 32, the circular portion 32 of which has a conical periphery 32" With which a corresponding conical bore ot the cap 33 makes joint. When the parts are assembled as shown in Fig. 24 and the screw caps S3 are screwed up, it will be seen that'the ends of the fuse container and the expansion chamber are closed in gas-tight manner, and that the metallic coned plug 3l makes electrical connections between the fuse i and the metallic 'fuse blade 32, in this arrangement end teru'iinals ot the fuses are ('lispensed with. D is the ilexible ring as described.

Referring now to Figs. .2Q-to 35; 34 is the outer casing; 35 the inner casing; 36 arnetallic end Washer which closes the inner casb, and which has a rectangular extension 3621 which forms the fuse blade and which is prevented from turningr by the pins 37 which t recesses in the interior ot the cusing 35 g the joint between the Washer 36 and lll) the casing 35 being made by the end cap 41, the end of which has a conical bore 41 which makes joint with the coned part 36h 'of the end washer 36, the cap 'screwing on to the screwed part of the casing 34 and being provided with indentations 41b to facilitate screwing up.

The .ends'of the fuses are bolted by bolts 39 to the-ends 38 ot T shaped pieces 38, which latter'malcc electrical contact with the ends 3G, vthe joint being made by conical headcd screws 40, screwing into the part 38. As' before D is the flexible closure'means.

Reierring now to Figs. 36 to 47 41"V is the outer casing, 42 the inner tube, 43 and 43 the end caps by which the ends .of the inner tube 42 are closed; this inner cap has a recess portion 43 which fits over a screw 44 screwing into the tube'42 so as to prevent relative angular movement between 43 and 42.

The eye 43b of the cap 43 is square; 45 are combined terminal connections and end closing ca s for the tube 41; each internally screwe at 45 and the scrcw-threaded art lits on a screwed portion of the tube 41 w ich is made of insulating material. The caps 45 close the ends oi' the expansion chamber B and hold the caps 43 and 43 in position. 46 vare the connectors byl which the ends of the fuse are connected to the caps 45. The portion 46 of the connectors 46 is of square configuration and slides in the square eyes 431 of the caps 43 soas to prevent relative angular' movement between these parts. The portions 4Gb of the connectors are screwed and litted with conical nuts 47 which screw intocorresponding internal seatings in the terminal ports 45 and make gas-tight joint therewith.

In this modification the opening 0:2 in the wall of' the tube 42 is rectangular in shape the longer axis being arranged circum'fcrentially, 'the closing means comprise an elastic clip D2 andan interposed lsaddle. piece D3 `having projections d1. The exterior ofthe tube 42 is recessedv as shown in Fig. 40 and the saddle, piece'fits in the said recessvand is thus located on the tubes axially, the projections d1 lit corresponding recesses d2 and prevent rotatable-movement of thev saddle piece. -The clip D? which is shaped as shown in Figs. 45. to 47 is preferably of steel and it serves to clip the saddle D3. in position on the tube 4'2. IV find that advantage results from this mode of clos-V ing the opening a2 in the tube 42. The saddie Da'overlaps the opening,r a considerably and thus provides the necessary initial check to the flow of gas and powder from the inner tube when the fuse blows. Whenever the pressure within the tube 42 rises the elastic member D2 yields and the saddle is forced .clear of the opening a2, allowing the hot gases and powder to pass into the expansion chamber through the inlet space oetwecn the saddle D and the tube 42,v the powder escaping with the gas being heated and giving ofi'1 a gas which tends to quench any flame that may result from the passing of the zone ot' the `fusible element.`

I have found that byv the employment of the'mode of closure of the opening between the inner tubo and the expansion chamber by means of a spring clip such as D, and particularly by the employment of the mode of closure according to the modification last described, gives excellent results, particular-v ly in regard to the prevention of undue rise of pressure within the fuse container or eX- pansion chamber when the fuse blows; this I believe to be due to the extent ot contact area between the clip D or the saddle D3 and the portion of the tube 42 surrounding the opening (L2.

The saddle D3 and the clip D2 are the most effective means known tome for ensuring an` initial check'to the outflow of gas and powder whilst permitting, when the pressure in the fuse container chamber rises,- comparatively freo outflow ot the as and powder. Obviously other means mayie employed -for effect-ing the closure ot' the opening` between the fuse container chamber andthe expansion chamber and the best vresults will be yobtained if due regard be given to the following considerations ;-a single opening of the necessary area usually gives better re sults than a number'of smaller openings of' equal aggregate area; and a rectangular umv opening at the centre ot' the length of the i fuse container chamber with its llonger axis arranged circumferentially gives excellent results. I further find that the best results are obtained when zinc is used as the fusible element and when the powder is composed of powdered marble and barium salts in the proportions mentioned.

In each ot the modifications the vparts which carry current Iare of course made of high conductivity metal; the end caps which vscrew onto the outer tubularcasing are also Having now fully described my invention, i

I declareithat what I claim and desire to secure by Letters Patent is tube forming 1. In an enclosed electric fuse; in combinaton;-a fuse containing chamber, a fusible element enclosed in said chamber, an incombustible materiall surrol'lnding the fusible element and enclosed in said chamber, conducting terminals connected to the re- 'speetive two ends of the fusible element and passing out ofthe said chamber in gas-tight manner,'an expansion chamber, acommuni-` eating passage-Way between the said Chami bers and means adapted to close the said passageway and adapted, when the pressure in the fuse containing chamber reaches a predetermined value, to open the said passage-way.

2, In an enclosed electric fuse, an inner a fuse containing chamber, means tor closing the ends of the inner tube, a. fusible element 'enclosed in the said inner tube, conducting terminals passing gas-tight through the ends of the inner tube, an incombustible. material surrounding the :tusiI ble element and enclosed inthe inner tube, an outer tube, an expansion chamber boundled by the inner wall ot the outer tube and the outer Wall ot' the inner tube, means for closing. the ends olv the .expansion chamber, communicating means .between thel 4chambers formed in the Wall of the inner tube and axially adjustable end-caps att-ached to the ends of the outer tube and adapted to hold the end closing means of the charnb'ers in posit-ion at theends ot the tubes;l

3. In an enclosed electric fuse, an inner tube .forming a fuse containing chamber, a vfusible element enclosed in the said inner tube, conducting terminals passing gas-tight through the ends of the inner tube, an incombustible material surrounding the fusible element and enclosed in the inner tube, an' outer tube of insulating material an eX- pansion chamber bounded by the inner Wall of the outer tube and `the outer Wall of the inner tube, communicating means between the chambers formed in the Wall of the inner tube, axially adjustable chamber-closing ends-made of conducting material attached to the outer tube of insulating material and forming end 'terminal connections for the fuse connecting'means adapted to connect the ends of the fusible element to the respective chamber-closing ends comprising a screw threaded member passing through the said chamber-closing ends and being` litted with eonedl nuts making' gas4tight joint with coned seatings in said ends.

4. In an enclosed electric fuse, an inner tube forming a fuse containing chamber, a fusible element enclosed in the said innci` tube, conducting terminals passing gas-tight through the ends of the inner tube, an incombustible material surrounding the fusible element and enclosed in the inner tube, an outer tube of-insulating sion chamber bounded b material an expanf the inner Wall of the outer tube and the outer wall of the in ner tube, communicating means between the chambers formed in the Wall of the inner tube end caps adapted to close the ends ofv the .inner tube and held against rotation therein, end caps made of conducting material adapted to screw on to the screwed ends of the outer tube and to close the ends 'of the latter and retain the ends of the inner tube in position and toform terminal connections for the fuse; connecting means, adapted to connect the ends of the fusible element t0 the said terminal connections, and Comprising a screw threaded -member passing through the inner tube end covers and held against rotation relatively thereto, and passing through the end terminal connections and being fitted with coned nuts adapted to make gas-tight joints with eoned seatings in the said terminal connections.

5. In an inelosed electric fuse; in combination, a fuse containing chamber, a fusible element inelosed in said chamber, an incombustible material surrounding the fusible element and inelosed in said chamber, conducting terminals connected to t-he respective 4two ends of the fusible element and passing out of the said chamber in gas tight manner, and an expansion chamber comn'iunicating,r with the fuse containing chamber, in which the incombustible material surrounding the fusible element and enclosed in the fuse containing chamber is a material confiposed of approximately equal parts oit' powdered marble and barium sulphate.

6. In an enclosed electric 'fuse in combination with a tubular fuse-containing chamber, a fusible element enclosed therein, an vincombu'stible material surrounding the fusible element and enclosed in said chamber, conducting terminals passing in gas-tight manner out ot the ends of the said chamber, an expansion chamber surrounding the said fuse containing chamber, a communicating passage-Way between the chambers formed in the Wall of the fuse containing chamberand means for closing' the said opening comprising a flexible clip externally gripping the fuse containing chamber and adapted when a predetermined pressure is reached in the said chamber, lo release the closing means and permit the opening of the said communieating passage-way.,

7. In an enclosed electric fuse, in combination, a tubular fuse containing chamber, a fusible element enclosed therein, an incombustible material surrounding the fusible element and enclosed in said chamber, conducting terminals passing in gas-tight manner out of the ends of said chamber, an exu pansion chamber surrounding the said fuse containing chamber, a communicating opening between the fuse containing vand expan sion chambers, a saddle-like clip closing the said opening with considerable overlap' and an elastic clip encircling the enclosing clip and holding the latter in position.

8. In an enclosed electric fuse as lclaimed in claim 7, constructing the metal clip of strip metal bent to form an encircling elastic frame adapted to press the closing clip into contact with thcsnrface of the fuse containing chamber.

9. In lan enclosed electric fuse as claimed in claim 7, l"or1nlng an indentation on the g exterior of the fuse containing chamber into which indentation the closing clip fits and by which it 1s retained in position axially in the said recesserl part, and end projections on the enclosing clip engaging with the said recess.

l0. The improvement in enclosed electric fuses which consists in enclosing a fuslme element of zinc in a vfuse containing chamber through the ends of which the terminal connections pass in gas-tight manner, said chamber lbeingr packed with a owdered incombustible material which on eing heated gives oil'1v a gas which smothers the arc formed when the fuse blows, enclin pro viding` a gas-tight expansion chamber conncctcd by communicating means with the interior of the fuse containing chamber, said communicating 'means beingintially closed by yielding; means which open when the pressure in be ond a predetermined pressure.

n witness whereof I set my hand.

VERNON HOPE.`

the fuse containing chamber rises 

